198 lines
6.4 KiB
Python
198 lines
6.4 KiB
Python
import datetime
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import gi
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import logging
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import math
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gi.require_version("Gtk", "3.0")
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from gi.repository import Gtk, Gdk, GLib, Pango
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class HeaterGraph(Gtk.DrawingArea):
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def __init__(self, printer):
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super().__init__()
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self.set_hexpand(True)
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self.set_vexpand(True)
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self.get_style_context().add_class('heatergraph')
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self.printer = printer
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self.store = {}
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self.max_length = 0
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self.connect('draw', self.draw_graph)
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self.add_events(Gdk.EventMask.TOUCH_MASK)
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self.add_events(Gdk.EventMask.BUTTON_PRESS_MASK)
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self.connect('touch-event', self.event_cb)
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self.connect('button_press_event', self.event_cb)
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def add_object(self, name, type, rgb=[0, 0, 0], dashed=False, fill=False):
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if name not in self.store:
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self.store.update({name: {"show": True}})
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self.store[name].update({type: {
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"dashed": dashed,
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"fill": fill,
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"rgb": rgb
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}})
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self.max_length = max(self.max_length, len(self.printer.get_temp_store(name, type)))
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def event_cb(self, da, ev):
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if ev.type == Gdk.EventType.BUTTON_PRESS:
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x = ev.x
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y = ev.y
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logging.info("Graph area: %s %s" % (x, y))
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def get_max_length(self):
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n = []
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for name in self.store:
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if "temperatures" not in self.store[name]:
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continue
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n.append(len(self.printer.get_temp_store(name, "temperatures")))
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return max(n)
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def get_max_num(self, data_points=0):
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mnum = []
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for x in self.store:
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for t in self.store[x]:
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if t == "show":
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continue
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mnum.append(max(self.printer.get_temp_store(x, t, data_points)))
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return max(mnum)
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def draw_graph(self, da, ctx):
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width = da.get_allocated_width()
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height = da.get_allocated_height()
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g_width_start = 30
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g_width = width - 15
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g_height_start = 10
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g_height = height - 20
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ctx.set_source_rgb(.5, .5, .5)
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ctx.set_line_width(1)
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ctx.set_tolerance(0.1)
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ctx.move_to(g_width_start, g_height_start)
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ctx.line_to(g_width, g_height_start)
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ctx.line_to(g_width, g_height)
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ctx.line_to(g_width_start, g_height)
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ctx.line_to(g_width_start, g_height_start)
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ctx.stroke()
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ctx.set_source_rgb(1, 0, 0)
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ctx.move_to(g_width_start, height)
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gsize = [
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[g_width_start, g_height_start],
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[g_width, g_height]
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]
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self.max_length = self.get_max_length()
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graph_width = gsize[1][0] - gsize[0][0]
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points_per_pixel = self.max_length / graph_width
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if points_per_pixel > 3:
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points_per_pixel = 3
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data_points = int(round(graph_width * points_per_pixel, 0))
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max_num = math.ceil(self.get_max_num(data_points) * 1.1 / 10) * 10
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d_width = 1 / points_per_pixel
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d_height_scale = self.graph_lines(ctx, gsize, max_num)
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self.graph_time(ctx, gsize, points_per_pixel)
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for name in self.store:
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if not self.store[name]['show']:
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continue
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for type in self.store[name]:
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d = self.printer.get_temp_store(name, type, data_points)
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if d is False:
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continue
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self.graph_data(ctx, d, gsize, d_height_scale, d_width, self.store[name][type]["rgb"],
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self.store[name][type]["dashed"], self.store[name][type]["fill"])
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def graph_data(self, ctx, data, gsize, hscale, swidth, rgb, dashed=False, fill=False):
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i = 0
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ctx.set_source_rgba(rgb[0], rgb[1], rgb[2], 1)
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ctx.move_to(gsize[0][0] + 1, gsize[0][1] - 1)
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if dashed:
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ctx.set_dash([10, 5])
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else:
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ctx.set_dash([1, 0])
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d_len = len(data) - 1
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for d in data:
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p_x = i*swidth + gsize[0][0] if i != d_len else gsize[1][0] - 1
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p_y = gsize[1][1] - 1 - (d*hscale)
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if i == 0:
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ctx.move_to(gsize[0][0]+1, p_y)
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i += 1
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continue
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ctx.line_to(p_x, p_y)
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i += 1
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if fill is False:
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ctx.stroke()
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return
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ctx.stroke_preserve()
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ctx.line_to(gsize[1][0] - 1, gsize[1][1] - 1)
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ctx.line_to(gsize[0][0] + 1, gsize[1][1] - 1)
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if fill:
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ctx.set_source_rgba(rgb[0], rgb[1], rgb[2], .1)
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ctx.fill()
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def graph_lines(self, ctx, gsize, max_num):
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nscale = 10
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while (max_num / nscale) > 5:
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nscale += 10
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# nscale = math.floor((max_num / 10) / 4) * 10
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r = int(max_num/nscale) + 1
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hscale = (gsize[1][1] - gsize[0][1]) / (r * nscale)
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for i in range(r):
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ctx.set_source_rgb(.5, .5, .5)
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lheight = gsize[1][1] - nscale*i*hscale
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ctx.move_to(6, lheight + 3)
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ctx.show_text(str(nscale*i).rjust(3, " "))
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ctx.stroke()
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ctx.set_source_rgba(.5, .5, .5, .2)
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ctx.move_to(gsize[0][0], lheight)
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ctx.line_to(gsize[1][0], lheight)
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ctx.stroke()
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return hscale
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def graph_time(self, ctx, gsize, points_per_pixel):
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glen = gsize[1][0] - gsize[0][0]
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now = datetime.datetime.now()
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first = gsize[1][0] - ((now.second + ((now.minute % 2) * 60)) / points_per_pixel)
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steplen = 120 / points_per_pixel # For 120s
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i = 0
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while True:
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x = first - i*steplen
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if x < gsize[0][0]:
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break
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ctx.set_source_rgba(.5, .5, .5, .2)
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ctx.move_to(x, gsize[0][1])
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ctx.line_to(x, gsize[1][1])
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ctx.stroke()
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ctx.set_source_rgb(.5, .5, .5)
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ctx.move_to(x - 15, gsize[1][1] + 15)
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hour = now.hour
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min = now.minute - (now.minute % 2) - i*2
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if min < 0:
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hour -= 1
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min = 60 + min
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if hour < 0:
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hour += 24
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ctx.show_text("%02d:%02d" % (hour, min))
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ctx.stroke()
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i += 1
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def is_showing(self, device):
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if device not in self.store:
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return False
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return self.store[device]['show']
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def set_showing(self, device, show=True):
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if device not in self.store:
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return
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self.store[device]['show'] = show
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